Month: July 2018

Public interest in wood preservatives

I have worked on wood preservation R&D for over 25 years and one of the more frequent questions I have received from the public regards the safety of wood preservatives. The public is interested in two-fold safety: (1) Is this product safe for myself and my family? and (2) Is this product safe for the environment? The EPA has always been concerned with wood preservative safety and all preservatives that make a claim regarding wood decay must carry an EPA label. The labeling process is lengthy, expensive, and includes a wide array of testing to determine if the preservative is toxic to vertebrates, marine organisms, and the environment.

The initial concern was focused on chromated copper arsenate (CCA) treated wood. In 1998 the Florida Center for Solid & Hazardous Waste Management (FCSHWM) sponsored CCA research at the University of Florida and the University of Miami. The following year arsenic was discovered in the soil at a Gainesville, Florida area elementary school playground. This discovery led to several newspaper articles throughout Florida and eventually in the USA Today.

CCA phase out for residential use

In 2001, the treated wood industry agreed to new voluntary warning labels on CCA treated wood. The environmental group Beyond Pesticides, Communication Workers of America, BANCCA.ORG and others joined together to sue the EPA to ban all forms of toxic treated wood, including creosote, pentachlorophenol and CCA treated wood in 2002. Their efforts were unsuccessful. The controversy came to a head when the EPA announced the finalization of the voluntary ban on residential uses of CCA, to take effect on December 31, 2003. It should be noted that the EPA did not require or suggest that any existing structures, including children’s playground equipment, should be removed from service. CCA continues to be used for non-residential uses such as poles, pilings, and posts.

My experience has shown me that CCA is a cost-effective effective preservative with excellent efficacy against most organisms with the exception of mold fungi, which do not impact the structural integrity of a wood member. The metals in CCA treated wood are generally resistant to leaching when the wood is placed in service. The leach-resistance of CCA is a result of the chemical “fixation” reactions that occur to render the toxic ingredients insoluble in water. The fixation of CCA is a complex process, but the essence of CCA fixation is the reduction of chromium from the hexavalent to the trivalent state, and the subsequent precipitation or adsorption of chromium, copper and arsenic complexes in the wood substrate. Some of the these reactions, such as the adsorption of copper and chromium onto wood components, occur within minutes or hours, while others are completed during the ensuing days or weeks. The length of time needed for fixation is greatly dependent on temperature, and the reactions may proceed slowly when the treated wood is stored out-doors in cool weather. So, yes CCA is safe for people and the environment and is a much better environmental choice than steel or concrete.

Todd Shupe is the President of DrToddShupe.com and is a well recognized expert on wood-based housing and wood science. Shupe worked as a professor and lab director at LSU for 18 years and Quality Manager for Eco Environmental (Louisville, KY) for 2 years. He is active in several ministries including his Christian blog ToddShupe.com. Todd is the Secretary of the Baton Rouge District of United Methodist Men, Database Coordinator for Gulf South Men, and volunteer for the Walk to Emmaus, Grace Camp, Iron Sharpens Iron, Open Air Ministries, HOPE Ministries food pantry. Todd is currently preparing to be a Men’s Ministry Specialist through the General Commission of United Methodist Men.

Non-Traditional Medicine

However, my curiosity was really peaked after reading a study “Wood as a Restorative Material in Healthcare Environments” by Sally Augustin and David Fell which was published in 2015. The goal of the report was to attempt to draw a link between the use of wood in the built environment and positive health outcomes. The researchers reported that “early evidence suggests that the human relationship with wood is similar to previously investigated responses of

I have been fascinated by the recent non-traditional means to improve patient recovery. Over the years I have read about the benefits of natural sunlight, plants, water elements, rooms with a view of nature, and even the color of the room and design of the bed. As an animal lover, I have been intrigued by the “pet” therapy in which cats and small dogs are brought to patients to hold and pet.

humans to other natural materials. Wood is believed to be a biophilic material that reduces stress reactive when present. The biophilia hypothesis also called BET suggests that humans possess an innate tendency to seek connections with nature and other forms of life. Edward O. Wilson introduced and popularized the hypothesis in his book, Biophilia (1984). He defined biophilia as “the urge to affiliate with other forms of life.”

Wood for Healing

The Augustin and Fell report reports that “the mind and body are looking for a connection with nature when it is absent the type of nature and the type of building are secondary. Wood is a natural building and finishing material and therein is the fit with using it more in healthcare settings.” The goal of any natural material in a health care setting is to reduce stress. I think people associate wood paneling and flooring with a natural, warm environment and feel better connected to nature. In our modern society there is something intrinsically attractive about simple inherent natural beauty. This could be found in natural sunlight, puppies, and even wood.

Europe for candles and soap. It is also used as a salve and taken internal as a remedy for gum ailments. If I end up in a hospital room, please get me a room with a view of a park, knotty pine flooring, and a cute puppy to pet! We all know that wood is good. Now, we now that is also good medicine.

You may be familiar with some of the traditional medicines that have come from wood. For example, one of the major uses for Brazilian sassafras oil is the synthesis of the perfumery material heliotropin. A potential but unrealized market for heliotropin is in the synthesis of dopa, a pharmaceutical used for the treatment of degenerative diseases in Latin America. Cinchona alkaloids from the bark of Cinchona sp. Produce quinine for malaria and quinidine for the treatment of heart arrhythmia in Latin America. In Southeast Asia, about twenty different species of the genus Shorea carry the illipe nut, whose oil is used in

Todd Shupe is the President of DrToddShupe.com and is a well recognized expert on wood-based housing and wood science. Shupe worked as a professor and lab director at LSU for 18 years and Quality Manager for Eco Environmental (Louisville, KY) for 2 years. He is active in several ministries including his Christian blog ToddShupe.com. Todd is the Secretary of the Baton Rouge District of United Methodist Men, Database Coordinator for Gulf South Men, and volunteer for the Walk to Emmaus, Grace Camp, Iron Sharpens Iron, Open Air Ministries, HOPE Ministries food pantry. Todd is currently preparing to be a Men’s Ministry Specialist through the General Commission of United Methodist Men.